Hefei Super Electronics Co., Ltd.
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Many customers wonder whether placing two sintered NdFeB magnets together will create a stronger magnetic force. The short answer is yes—but only under certain conditions. Understanding how stacked magnets work can help you choose the right magnet configuration for your application while avoiding common misconceptions.
»» Does Stacking Two Magnets Make Them Stronger?
When two neodymium magnets of the same size, grade, and magnetization direction are stacked with opposite poles touching (North to South), they effectively behave like a single thicker magnet. Increasing the magnet's thickness allows more magnetic flux to reach the working surface, often resulting in a stronger holding force.
However, the increase is not always double. Magnetic performance depends on several factors, including magnet dimensions, air gaps, steel contact surfaces, and the magnetic circuit. In most practical applications, stacking magnets improves pull force, but the gain gradually decreases as additional magnets are added.

»» Why Does Magnetic Force Increase?
The magnetic field produced by a permanent magnet extends into the surrounding space. Thin neodymium magnets lose more magnetic flux through their sides, while thicker magnets utilize their magnetic material more efficiently.
By stacking two magnets:
√ The effective magnet thickness increases.
√ More magnetic flux is concentrated toward the working face.
√ The holding force on steel surfaces generally becomes stronger.
√ The magnetic field extends farther from the magnet surface.
Although stacking magnets is an effective way to improve magnetic performance in many applications, there are situations where adding more magnets provides little or no additional benefit. Understanding these limitations helps engineers and buyers choose the most efficient magnetic solution.

1.Magnet is already thick enough, it reaches a point where additional thickness contributes very little to the magnetic field at the surface, because most of the magnetic flux is already fully utilized.
2.Steel can only carry a limited amount of magnetic flux before becoming magnetically saturated. Once saturation occurs, additional magnetic flux from stacked magnets cannot effectively pass through the steel. As a result, the holding force increases only slightly, even though more magnets have been added.
3.Magnetic force decreases extremely quickly as the distance between the magnet and the object increases.
If paint, plastic, wood, rubber, adhesive tape, or other non-magnetic materials create an air gap, stacking magnets May provide only a small improvement because much of the magnetic field is lost before reaching the target.

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